The URL can be used to link to this page

Specifications 4 CONSTRUCTION SPECIFICATION i FOR THE + KNOWLEDGE BEGINNINGS I DAY CARE CENTER 6 �l �° 10751 S.W. 130t AVENUE c o TIGARD OREGO ■ July 14, 1999 SAA Project No. 98316.04 Architect: STEELE ASSOCIATES ARCHITECTS, LLC. � 16 � � 1 600 S.W. Columbia St., Suite 3000 ,� Bend, Oregon 97702 Telephone: (541) 382 -9867 Fax: (541) 385 -8816 s a . . T yL I Developer - c . HULSEY DEVELOPMENT COMPANY OR GON I P. O. Box 8600 1/14 °) Bend, OR 97708 Telephone: (541) 385 -9285 Fax: (541)385-3115 OF 0 % I Mechanical / Electrical: M INTERFACE ENGINEERING INC. 200 Hawthorne Ave. SE, Ste B -210 I Salem, Oregon 97301 Telephone: (503) 364 -5354 Fax: (503) 364 -5434 Structural Engineer f FROELICH CONSULTING ENGINEERS 1183 N.W. Wall, Suite C ' Bend, OR 97701 Telephone: (541) 383 -1828 Fax: (541) 383 -7696 Civil Engineer I WARNER ENGINEERING 5122 Olympic Dr. NW, Suite B204 Gig Harbor, WA 98335 Telephone: (253) 858 -8577 Fax: (253) 858 -8579 I Landscape Designer f CREATIVE LANDSCAPE SOLUTIONS I Pillil 1293 NW Wall St., #1512 Bend, OR 97701 Telephone: (541) 312 -2680 Fax: (541) 312 -2690 '' n C1f) BUILDING PERMIT SET - JULY 14,1999 • I )4 1 1 provided by the hardware supplier. Where surface mounted hardware is to be applied, the door shall have reinforcing plates. Minimum gauges for these plates are: a. Hinge & Pivot: 10 gauge [ ' b. Lock Face, Flush Bolts, concealed holders, surface mounted closers: 18 gauge c. All other:16 gauge 10. Where specified or scheduled, provide hollow metal mouldings to secure glazing in accordance with glass sizes shown on the plans. Fixed mouldings shall be securely welded to the door on the security side. Loose stops shall be not less than 20 gauge steel, with mitered corner joints, secured to the framed opening with cadmium or zinc- coated countersunk screws. Snap on attachments shall not be permitted. 11. Finish shall be a rust - inhibitive primer applied to all surfaces of the door, then fully cured before shipment. After fabrication, all tool marks and surface imperfections shall be dressed, filled, and sanded as required to make all faces and vertical edges smooth, level, and free from irregularities. Doors shall then be chemically treated to ensure maximum paint adhesion. 12. Hollow Metal Frames have their size, profile, and general detail indicated on the drawings. No screws or fasteners shall be exposed except as specified. Punch all frames for silencers, 3 on knob side of single acting doors, 2 in the head of double doors. Punch and countersink for wood screws where required to attach to wood framing. Where continuous hinges are specified, there shall be no hinge stop on the frame. 13. Frames for exterior doors shall be knockdown type, Benchmark "Adjusta - Fit "with a 16 -ga. galvanized steel base jamb with 22 -ga. electrogalvanized (ASTM A591) steel closure jambs as required to fit wall thickness. Frames shall be pre - primed. Frame shall be equipped with magnetic compression weatherstripping, a "barrier- free" threshold, and embossed hinge reinforcing backed ( , up with additional 10 -gauge equivalent hinge reinforcement. 14. Frames for interior openings shall be commercial grade cold rolled steel conforming to ASTM A336 -66T, or hot rolled and picked steel conforming to ASTM A569 -66T. Frames for opening less than 4' -0" shall be 18 gauge, for openings wider than 4' -0 ", 16 gauge. 15. All frames shall be custom made welded with integral corners and trim. Knock down exterior ( ' frames will not be allowed. Interior door frames may be 18 gauge KD with tight fitting mitered and reinforced corners. 16. All finished work shall be strong and rigid, neat in appearance, square and true, and free from defects, warps, or buckles. Corner joints shall have all contact edges closed tight, with trim faces mitered and continuously welded, and stops mitered. The use of gussets shall not be permitted. Minimum depth of stops shall be 5/8 ". I • 17. Frames shall be reinforced, drilled, and tapped at the factory for fully templated hardware only, in strict accordance with the specified hardware only, and in accord with instructions and templates ' provided by the hardware supplier. Where surface mounted hardware is to be applied, the door shall have reinforcing plates. Minimum gauges for these plates are: a. Hinge & Pivot: 7 gauge 1.25 "xl0 "min. ' b. Lock Face, Flush Bolts, concealed holders, surface mounted closers, strikes: l2 gauge. c. All other:12 gauge Knowledge Beginnings Daycare Facility - Scholls /130th, Tigard 98316.04 'f DIVISION 8 - DOORS AND WINDOWS Page 2 18. Floor anchors shall be securely welded inside each jamb, with two holes provided at each jamb for floor attachment. Minimum thickness of floor anchors shall be 14 gauge. ' 19. Frames installed in wood stud partitions shall be provided with drywall installation anchors of suitable design, not less than 18 gauge thickness, with compression anchor at head and floor ' anchors as specified in 2.21. Frames shall be anchored to concrete, masonry, or steel with anchors of suitable design. Offset anchors may be required at certain locations. 20. All frames shall be provided with a temporary steel spreader bar attached to the feet of both ' jambs to serve as a temporary brace during shipping and handling. Do not remove until bucks are finally secured in place. 21. Labeled doors and frames shall be provided for those openings requiring fire protection ratings as determined and scheduled on the plans. Such doors and frames shall be constructed as tested, approved and labeled by a recognized testing agency having a factory inspection service. If any door specified cannot qualify for an appropriate rating because of it's design, hardware, or any other reason, the Architect shall be notified prior to submitting a bid. 22. Finish shall be a rust - inhibitive primer applied to all surfaces of the frame, then fully cured ' before shipment. After fabrication, all tool marks and surface imperfections shall be dressed, filled, and sanded as required to make all faces and vertical edges smooth, level, and free from irregularities. Frames shall then be chemically treated to ensure maximum paint adhesion. 23. The location of hardware on doors and frames shall be as follows: a. Top Hinge: 5" from head to top of hinge. . b. Bottom hinge: 10" from floor to bottom of hinge. c. Intermediate: Spaced equally between top & bottom hinge. 1' d. Locks & Latches: 38" from floor to centerline. ,. e. Deadlocks: 42" from floor to centerline. ' f. Panic Hardware: As low as allowed by code. g. Door Pulls & Pushes: 38" from floor to centerline. 1 26. Clearances at edges shall be as follows: a. Between door and frame at head and jamb: - 1/8 ". ' b. At door sills: Where no threshold is used - 3/8" maximum. Where threshold is used - 1/4" maximum. c. Meeting edge of pair of doors - 1/8 ". d. Carpet - 3/4" minimum. See plans and schedules for areas to receive carpet. PART 3 - EXECUTION ' 1. Frame Installation: Frames shall be set holding head level and maintaining jambs square and plumb. Secure all anchorages to adjacent construction. Leave spreader bars intact until frames are completely set. Knowledge Beginnings Da care Facility - Scholls /130th Tigard 98316.04 g Y tY g DIVISION 8 - DOORS AND WINDOWS Page 3 2. Door Installation: Apply hardware in accordance with manufacturer templates and instructions. ' Adjust all operable parts for correct function. Remove hardware with the exception of prime coated items, tag, box, and reinstall after field painting is completed. Installation of fire rated doors and hardware shall be in conformance to UL requirements. 3. Touch -up: Immediately after erection, areas where prime coat has been damaged shall be sanded smooth and touched up with the same primer applied at the shop. Remove all rust before touching -up. SECTION 08210 - WOOD DOORS ' PART 1 - GENERAL 1. Extent and location of each wood door is shown on the plans. Types include solid core fire rated ' doors and hollow core doors. Due to the possibility of finger injuries to small children, all doors shall be hollow core unless required to be fire rated by code. 2. Doors shall be factory preped for hardware. 3. Fire rated doors shall be tested in accordance with ASTM E 152 and shall be labeled and listed by a testing agency and inspection organization such as U.L. or Factory Mutual. 4. Obtain all doors from a single manufacturer to ensure uniformity in quality, appearance and construction. 5. Solid core interior wood doors shall carry a five year warranty. PART 2 - PRODUCTS 1 1. Wood doors shall comply with ANSI/NWMA I.S. 1 "Industry Standard for Flush Wood Doors" published by National Woodwork Manufacturer's Association as manufactured by Mohawk Flush Doors, Inc. 2. Face panel shall be standard 2 or 3 ply panels. All doors shall have natural birch, rotary cut ' custom grade faces. All doors and trim shall be painted in accordance with the color schedule. 4. Hollow core doors shall have a solid wood frame on all sides large enough to accept all hardware. Doors shall be 1- 3/4" thick. 1 -3/8" thick hollow core doors will be accepted if an alternate continuous hinge is submitted. 5. Fire rated solid core wood doors shall have faces as specified and shall have the manufacturer's ' standard core as required to obtain fire rating, and shall have a solid wood frame on all sides large enough to accept all hardware. Doors shall be 1 -3/4" thick. 6. Comply with tolerance requirements of AWI for prefitting. 7. Cut and trim openings through doors as shown on drawings. Lite openings shall be factory cut and trimmed with hollow metal lite kits. Lites in fire rated doors shall be constructed and tested as an assembly and shall come to the jobsite assembled. PART 3 - EXECUTION 1. Condition doors to average prevailing humidity in installation area prior to hanging. 2. Install doors in strict accordance with manufacturer's instructions. Knowledge Beginnings Daycare Facility - Scholls /130th, Tigard 98316.04 DIVISION 8 - DOORS AND WINDOWS Page 4 1 ' ° SECTION 09510 - ACOUSTICAL CEILING (NON FIRE RATED) ' PART 1 - GENERAL 1. Provide lay -in ceilings and suspension system as shown on the drawings and as specified herein. 2. When acoustical tile ceilings are shown on Drawings, suspension system and lay -in panels shall be 2 x 4' exposed grid type and conform to ASTM C635 with finish of exposed metal to be white. 3. Suspension system shall be installed as shown on drawings to allow for grid to align with trusses above and for lighting and diffusers to be placed as shown on the drawings. ' 4. The manufacturer and installer shall guarantee the acoustic board to be stable and not to sag. 5. Maintain a minimum temperature of 55 degrees F. prior to the installation of materials. PART 2 - PRODUCTS 1. Where acoustical tile ceilings are shown on Drawings, suspension system and panels shall be installed to provide Class A Flame spread. 2. Acoustical ceiling boards shall be as specified on drawings. Provide miscellaneous sizes and ' shapes as shown on drawings. 3. Structural class of the suspension system shall be intermediate duty. 4. Hanger wire shall be not less than 12 gauge galvanized steel. 5. Carrying channels shall be not less than 1 -1/2" cold rolled steel with white baked enamel finish. In humid, coastal climates, provide aluminum materials with same structural properties. PART 3 - EXECUTION 1. Lay out in accordance with plan. Install in accordance with ASTM C -636 and manufacturer's instructions. A tolerance no greater than 1/8" in 12 feet will be allowed. ' 2. Secure edge mouldings to substrate with screw anchors l6 "o.c. set in full be of white sealant. Miter corner joints. Butt running joints and clip so that finished bottom surface will be in same plane and not overlapped. ' 3. Intermediate suspension members that touch the edge moulding shall be cut so that the bottom flange of the member is in the same plane and a tight fit with the edge moulding. The vertical ' flange of the member shall rest on the edge member. It is imperative the entire suspension system exposed to view is in the same plane so the ceiling board will lay perfectly flat, without gaps between the grid and ceiling boards. Provide additional hangers at lay -in light fixtures. Wrap wire a minimum of three time horizontally, turning ends upward. ' 4. Ceiling penetrations shall be made by the ceiling contractor, but with the full cooperation of other trades. 5. In seismic Zones 2, 3 & 4, install lateral bracing as recommended by manufacturer. I Knowledge Beginnings Daycare Facility - Scholls /130th, Tigard 98316.04 DIVISION 9 - FINISHES Page 3 SECTION 09650 - VINYL COMPOSITION TILE PART 1 - GENERAL 1. The extent of resilient floor is shown on the plans and schedules. 2. Whenever possible, all materials shall be produced by a single manufacturer. 1 3. Provide not less than 50 tiles after the completion of the work for replacement materials on the job site. 1 4. Surfaces to receive resilient flooring shall meet the requirements of SCI9 -RFI. Install no materials over surfaces failing to meet the above. 5. Installation of the floor tile constitutes acceptance of the substrate by this Contractor. PART 2 - PRODUCTS 1. Vinyl Composition Tile: Shall be as manufactured by Armstrong, Azrock or approved equal. Tile to be 12" x 12" in size, having a one - eighth (1/8) inch gauge and a Class A rating as per ASTM E84. Subflooring to be smooth, sound and firm. See Interior Color Schedule for color selection. 2. Adhesive for tile installation will be as recommended by the VCT manufacturer. 3. Concrete rimer shall be a non-staining type as recommended by flooring manufacturer. p gtYP PART 3 - EXECUTION 1. Installation will be accomplished in strict accordance with manufacturer's recommendations. Install flooring after finishing operations, including painting. 2. Butt tightly to all adjacent surfaces. Scribe around obstructions to produce neat joints, laid tight, even, and straight. Extend flooring into toe spaces, door reveals, and into closets and similar openings. 3. Maintain a temperature of not less than 70 degrees nor more than 90 degrees for a minimum of 24 hours before and 48 hours after tile installation. Roll tile as necessary for positive adhesion. 1 4. VCT will be laid with grain alternated at ninety (90) degree angles. 5. General Contractor will strip, seal and provide 5 coats of wax performed as recommended by 1 VCT manufacturer. Work shall be completed just prior to the punch as directed by the Construction Manager. SECTION 09660 VINYL FLOORING PART 1 - GENERAL 1. Vinyl Flooring: Shall be as manufactured by Armstrong Style shall be "Classic Corlon Montina" and color shall be #86700 Sand Beige. Subflooring to be smooth, sound and firm. Adhesive for installation will be as recommended by the manufacturer. Installation will be accomplished in strict accordance with manufacturer's recommendations. General Contractor shall maintain all areas at a minimum of 70 degrees for at least 48 hours before, during and 48 hours after application. 2. All applicable sections of 09650 Vinyl Composition Tile shall be followed. Knowledge Beginnings Daycare Facility - Scholls /130th, Tigard 98316.04 g b g Y h' g DIVISION 9 - FINISHES Page 4 1 IR SECTION 15330 - FIRE PROTECTION SPRINKLER SYSTEMS ' PART 1 - GENERAL 1.1 SUMMARY ' A. Work Included: Provide the following. ' 1. Wet -pipe sprinkler system. 2. Dry-pipe sprinkler system or dry sprinkler heads in areas subject to 40F or ' 3. less. Antifreeze systems are not permitted. Private fire service main, including connection to existing utility, and piping to the inlet connection inside the building. Provide required valves, backflow preventer, vaults, and appurtenances. B. Provide tamper, flow, and pressure switches. Coordinate location and type of tamper, flow, and pressure switches with the fire alarm system. C. Provide all costs for electrical connections and wiring as required for a complete ' ' and operable system. Includes, but is not limited to air compressors, sump pumps, fire pumps, jockey pumps, pump controllers, and the like. Coordinate with Division 16. ' D. Refer to Architectural, and Civil Drawings for additional information relating to the fire sprinkler system. ' 1.2 QUALITY ASSURANCE A. Qualifications: Company specializing in sprinkler systems of similar type and scope with 3 years experience. B. Regulatory Requirements: ' 1. Codes: Provide system per the requirements of the following, except as specifically modified herein. Apply edition as enforced by AHJ unless otherwise stated. Comply with state amendments. ' a. Uniform Building Code as adopted by AHJ. b. Uniform Fire Code as adopted by AHJ. c. Uniform Building Code Standard No. 9 -1, Installation of Sprinkler Systems. d. NFPA 13, (1996 Edition) Standard for the Installation of Sprinkler ' e. Systems. Uniform Fire Code and UFC, Appendix III -C, "Testing Automatic Sprinkler and Standpipe Systems." f. NFPA 24, 1995 Edition, Standard for the Installation of Private Fire Service Mains and Their Appurtenances. Knowledge Beginnings 98316.05 FIRE PROTECTION SPRINKLER SYSTEMS 15330 - 1 g. NFPA 25, 1998 Edition, Standard for Inspection, Testing, and , Maintenance of Water -Based Fire Protection Systems h. Listed Components: Provide components UL listed and FM approved, except as modified herein. 2. Definitions: ' a. Code: Where this Specification refers to "Code ", it indicates any or all of the above listed Codes as applicable to that reference. ' b. AHJ: Indicates all reviewing authorities, including the local fire marshal, the Owner's insurance underwriters, Owner's representative, and any other reviewing entity whose approval is required to obtain systems acceptance. 1.3 SUBMITTALS A. Submit the following for review. Include in operations and maintenance manual. 1. Shop drawings, hydraulic calculations, and component manufacturer's data sheets (as one complete standalone package) to AHJ, Owner's insurance underwriter, and Engineer. Provide proof of approval by AHJ of installed sprinkler system to Engineer on completion of work. Coordinate sprinkler system design with all other building systems. 2. Project Record Documents indicating record conditions (one paper sepia, two prints). 3. Test Reports: Underground and above ground piping hydrostatic test, water supply flow test; Code - required acceptance tests; and manufacturer's operation and maintenance data. Include written maintenance data on components of system, servicing requirements, and Record Drawings. ' 4. Operations and Maintenance Manual: Provide three sets of O &M manuals that include Record Drawings, hydraulic calculations, manufacturer's data sheets and operation and maintenance instructions, servicing requirements, test reports and certificates, and NFPA 25. 1.4 DELIVERY, HANDLING AND STORAGE A. Provide temporary inlet and outlet caps. Maintain caps in place until installation. ' 1.5 EXTRA STOCK A. Provide extra sprinkler heads per code, provide suitable wrenches for each head type, and metal storage cabinet in location designated. ' Knowledge Beginnings 98316.05 FIRE PROTECTION SPRINKLER SYSTEMS 15330 - 2 1 1.6 SYSTEM DESCRIPTION I A. General: Provide coverage for the entire building. I 1. 2. Design Parameters: I a. Building Area: Attics, Offices, Classrooms and Common Areas:. 1) Occupancy Classification: I 2) Density: 0.10 GPM per sq.ft. over a 1500 sq.ft. hydraulically most remote design area per NFPA 13. 3) Area per Sprinkler: 225 sq.ft. maximum. I 4) Inside Hose Allowance: 0 GPM. 5) Outside Hose Allowance: 100 GPM. I b. Building Area: Kitchen Service and Storage Rooms 1) Occupancy Classification: Ordinary Group 1. 2) Density: 0.15 GPM per sq.ft. over a 1500 sq.ft. I hydraulically most remote design area per NFPA 13. Area per Sprinkler: 130 sq.ft. maximum. .. 4) Inside Hose Allowance: 0 GPM. }�, 5) Outside Hose Allowance: 250 GPM. 3. Sprinkler system design to include a 10 percent cushion between system demand point and available water supplies. 4. Develop cost - effective designs that may include the use of extended coverage sprinkler heads and design area reductions as allowed by NFPA �a:.. 13. 1 1.7 FLOW TEST I A. Provide materials and labor for a new water supply test on the closest nearby fire hydrants per NFPA 13, A- 7 -2 -1. I 1.8 GUARANTEE A. Guarantee all systems against defective equipment, materials and workmanship I for a period of 1 year after Owner's acceptance. 1 PART 2 - PRODUCTS 2.1 PIPE AND FITTINGS I A. General: Provide per AHJ requirements, and as a minimum per below. 1 Knowledge Beginnings 98316.05 I FIRE PROTECTION SPRINKLER SYSTEMS 15330 - 3 B. Materials: Domestic Manufacture. 1. Buried Piping: Ductile iron Class 52, AWWA C151 with flanged or mechanical joint fittings; or PVC, SDR -18, AWWA C900. 2. Above Ground Inside Building Piping: a. Pipe size 2 -Inch Diameter and Smaller: ASTM A53, ASTM A135, ASTM F442, or ASTM A795; minimum CRR of 1.00 per UL ' listing or FM approved. Threaded, mechanical couplings, or welded fittings. b. Pipe Size 2 -1/2 -Inch Diameter and Larger: ASTM A53, ASTM A135, or ASTM A795; wall thickness greater than Schedule 5 (Schedule 5 not approved). Threaded, mechanical couplings, flanged, or welded fittings. c. Mechanical Couplings: FM approved; Victaulic, Gruvelock, or , equivalent. d. All Dry Pipe System Piping: Galvanized inside and out. ' 2.2 SPECIALTIES A. General: 1. Fire Department Connection: Free standing type; ductile iron; brass finish; thread size to suit fire department hardware; two way threaded dust cap and chain of same material and finish, 3/4 -inch automatic drip connected to drain; marked "Sprinkler Fire Department Connection." 2. Waterflow Detector: Vane -type with SPDT switches and adjustable time delay (0 to 75 seconds). GEM VSR -F; Viking VSR -F; Potter VSR -F, or equivalent. 3. Tamper Switches: Provide to mount on applicable valve (OS&Y p Pp gate, ( g butterfly, or PIV), with SPDT switches to match requirements of fire alarm system. 4. Backflow Prevention Device: a. Two check valves in series with OS &Y gate valves at each end. Provide detector if required by local utility. Entire assembly must be UL listed or FM approved for fire protection service as a unit for fire protection service. Manufacturers: Wilkins, Hersey, Febco or equivalent. Coordinate with local authorities. Knowledge Beginnings 98316.05 FIRE PROTECTION SPRINKLER SYSTEMS 15330 - 4 b. Utility Vault: Precast concrete underground sized to enclose the backflow prevention device and the fire department connection ' check valve, with adequate clearance around these items to allow maintenance. Provide a drain sump in the vault bottom, suitable for insertion of a sump pump. Provide sump pump or gravity drain ' and drain piping to approved discharge locations required by local code officials. Provide all costs for electrical connections and ' wiring as required for a complete and operable system. Provide all electrical penetrations watertight. Provide all piping penetrations by rubber links which seal watertight by tightening compression bolts, or equivalent watertight premanufactured pipe penetration system. Provide extensions as required for proper depth, and round access manway access with cover, and ladder. Coordinate with Civil and Electrical Drawings. 5. Low Pressure Alarm Switch: Coordinate electrical requirements with fire ' alarm system. GEM PS40 -2A, Viking A -1, or equivalent. 6. Automatic Ball Drip Valve: Grinnell F789, or equivalent. 7. Air Compressor: Manufactured for fire sprinkler systems. Emglo, Gast, General. I . 8. Sectional Control Test/Drain Unit: ASTM A53 pipe, with inspector's test valve, sectional drain valve, sectional isolation valve with tamper switch, restriction union with corrosion resistant orifice equivalent to sprinkler orifice, sight flow connection, and waterflow detector. Grinnell .•= F360/361/362, or equivalent. '',` 9. Inspector's Test Connection: G/J Sure -Test. 10. Pressure Switch: Coordinate electrical requirements with fire alarm system. Potter PS10, Viking A -1, Reliable J54. or equivalent. 2.3 SPRINKLER HEADS A. General: 1. Finished Areas: Glass -bulb, recessed quick- response pendent with white painted finish, with white painted escutcheon. 2. Non - Finished Areas: Glass -bulb, quick- response with brass finish. ' 3. Dry: Recessed, solder or glass bulb, quick- response, chrome finish with chrome escutcheon. Knowledge Beginnings 98316.05 FIRE PROTECTION SPRINKLER SYSTEMS 15330 - 5 2.4 VALVES, GENERAL I A. OS &Y Gate: I 1. 2 -1/2- inches and Larger: Nibco F- 607 -0, or equivalent. 2. 2- inches and Smaller: Nibco T -104, or equivalent. I B. NRS Gate: Non - rising stem with post indicator. Nibco M/F -609 with NIP1A or equivalent for yard use and Nibco NIP2 or equivalent for wall use. I C. Swing Check: Iron body, rubber and bronze faced checks. Nibco F- 908 -W, or I equivalent. D. Wafer Check: Iron body, rubber seat, spring actuated. Nibco W- 900 -W, or I equivalent. E. Butterfly Valves: Ductile iron body, Nibco WD3510 -8 with factory- installed I tamper switches or equivalent. 2.5 SYSTEM ALARM VALVES I A. Dry Pipe Valve: Differential type. Provide with all trim as recommended by manufacturer for variable pressure service, including air maintenance device, I electric low pressure alarm switch, priming valves and test, main drain, and pressure gauges. Provide quick opening device when system volume exceeds 500 gallons. Provide air compressor, sized per sprinkler dry pipe valve manufacturer's I recommendations to fill system and to maintain system pressure as required per code. Manufacturers: Reliable Model D Dry Pipe Valve, or equivalent. PART 3 - EXECUTION 3.1 INSTALLATION I A. Coordinate the work of this Section with other trades and building systems. I Provide adequate space for installation. B. General: I 1. Provide post indicator on buried shutoff valves. ' . 2. Provide listed backflow assembly at sprinkler system water source connection. Coordinate with local utility, conform to their installation I requirements. 3. Fire Department Connection: Locate with sufficient clearance from walls, obstructions, or adjacent siamese connectors to allow full swing of fire department wrench handle. Knowledge Beginnings 98316.05 I FIRE PROTECTION SPRINKLER SYSTEMS 15330 - 6 1 • . 4. Install pipe runs to minimize obstruction to other work. ' 5. Install piping in concealed spaces above finished ceilings. ' 6. Center heads in the middle or quarter points of suspended ceiling tile. 7. Apply strippable tape or paper cover to ensure sprinklers do not receive ' field paint finish. Remove upon completion of painting. ' 8. Provide seismic restraints per code. As a minimum, provide a 4 -way earthquake bracing at the riser and at each change of direction of the main, and 2 -way bracing at 40 -feet on center along the main. 9. Coordinate support of sprinkler pipe 4 -inch and larger with structural engineer. 1 10. Risers: Provide 2- inches of clearance all around the fire main through the • foundation wall and floor. Pack annular space with mineral wool and silicone sealant. Provide bell and spigot rodded pipe assemblies for the connection between the underground fire main, and the riser, including the . last horizontal connection, and all vertical connections to the first connection on the riser. Coat rods for corrosion resistance, or use stainless steel. I ii Sprinkler system control valves to be OS &Y or butterfly valves located . inside building in 1 -hour rated enclosure with outside door. 1 12. Route water supply flow test connections to a location which can accept the flow under wide -open flow and pressure for a sufficient time to assure a proper test, and which will not cause damage, including to landscaping. ' 13. Coordinate location and electrical requirements of air compressor with q P ' Division 16. 14. Provide dry pendant sprinkler heads on pendant drops from dry piping. ' 15. Provide access panels for all test valves; test drains and low point drains concealed by structure or finish. 1 3.2 SYSTEM TESTS ' A. Test entire system per code and AHJ. Provide, arrange, and pay for all testing required by code or AHJ in order to obtain complete and final acceptance. Witness tests by AHJ and Engineer. Notify AHJ and Engineer 2 weeks prior to ' test. Knowledge Beginnings 98316.05 FIRE PROTECTION SPRINKLER SYSTEMS 15330 - 7 3.3 FIELD SERVICES A. Instruct the Owner in the operation of the sprinkler system, including main valve I position (open or closed) recognition, system drainage, system testing, dry pipe valve reset and the relation to the fire alarm system. I END OF SECTION I I I I I I I 1 1 I 1 I I I Knowledge Beginnings 98316.05 FIRE PROTECTION SPRINKLER SYSTEMS 15330 - 8 SECTION 16010 - BASIC ELECTRICAL REQUIREMENTS PART 1 - GENERAL 1.1 SUMMARY A. Section Includes: 1. Electrical systems required for this work includes all labor, materials, equipment, and services necessary to complete installation of electrical ' work shown on Drawings, specified herein or required for a complete operable facility and not specifically described in other Sections of these Specifications. 1.2 QUALITY ASSURANCE A. Requirements: 1. Conform to requirements of the NEC, UBC, and UFC latest adopted version with amendments by local AHJs. PART 2 - PRODUCTS ' 2.1 MANUFACTURERS A. Provide like items from one manufacturer; such as, luminaire types, switches, t receptacles, breakers, panels, and the like. 2.2 YEAR 2000 COMPLIANCE A. Provide software and embedded algorithms supplied to the project that are certified by the equipment/system provider and programming agents as being 1 "Year 2000" compliant and free from "Year 2000" ( "Y2K ") operational affects. The transition from the years 1998 to 1999 to the year 2000 and beyond for 10 years with time the program/algorithm has no discernable affect on the ' performance, accuracy, speed or presentation. This is as compared to a transition of 1998 to 1999. Knowledge Beginnings - Tigard 98316.04 BASIC ELECTRICAL REQUIREMENTS 16010 -1 1 PART 3 - EXECUTION 1 3.1 INSTALLATION A. Install electrical equipment complete as directed by manufacturer's installation instructions. Obtain installation instructions from manufacturer prior to rough -in of the electrical equipment, examine the instructions thoroughly. When requirements of the installation instructions conflict with the Contract Documents, request clarification from Architect prior to proceeding with the installation. ' END OF SECTION 1 I I 1 Knowledge Beginnings - Tigard 98316.04 1 BASIC ELECTRICAL REQUIREMENTS 16010 -2 ' SECTION 16050 - BASIC MATERIALS AND METHODS I PART 1 - GENERAL 1.1 SUMMARY I A. Section Includes: t 1. Raceways. 2. Wires, cables and connectors. I 3. Outlet boxes. 4. Devices and plates. 5. Safety disconnect switches. 6. Identification. I PART 2 - PRODUCTS 2.1 RACEWAYS I A. Conduits: I 1. Galvanized Rigid Steel Conduit (GRC): Hot -dip galvanized after thread cutting. Manufacture in conformance with Federal Specification I WWC -581 and ANSI C80.1. 2. Intermediate Metal Conduit (IMC): Hot -dip galvanized after thread I cutting. Manufacture in conformance with Federal Specification WWC -581. I 3. Electrical Metallic Tubing (EMT): Hot -dip galvanized and chromate coated. Manufacture in conformance with Federal Specification WWC -563 and ANSI C80.3. I 4. Flexible Conduit: Reduced wall flexible steel conduit. Hot -dip galvanized. Manufacture in conformance with Federal Specification I WWC -566. 5. Flexible Conduit, PVC Coated: Hot -dip galvanized steel. PVC chemical I resistant jacket extruded to core, up to 1 -inch trade size. PVC chemical resistant jacket, tubed over core, up to 4 -inch trade size. I 6. PVC: Class 40 heavy wall rigid PVC. Rated for use with 90C conductors. Manufacture in conformance with Federal Specification WC 1094A and I NEMA TC -2. I Knowledge Beginnings - Tigard 98316.04 BASIC MATERIALS AND METHODS 16050 -1 I B. Conduit Fittings: 1. Bushings: I a. Insulated type for threaded Rigid and IMC conduit. Thomas & Betts 1222 Series or O -Z Gedney B Series. I b. Insulated grounding type for threaded Rigid and IMC conduit. O -Z Gedney BLG Series. 2. EMT Connectors and g Couplings: Steel gland, Tomic, Breagle or O -Z I Gedney 7000 ST Series, preinsulated type connectors. Set screw type, I zinc plated, steel. Provide continuous ground wire with set screw connectors /couplings. 3. Expansion/Deflection Fittings: I a. EMT: Use O -Z Gedney Type TX. I b. GRC: Use O -Z Gedney Type AX, DX and DXX. 2.2 WIRES AND CABLES I A. Copper, 600 volt rated throughout. Conductors 14AWG to 10AWG, solid or stranded. Conductors 8AWG and larger, stranded. Phase color to be consistent at I all feeder terminations; A -B -C, top to bottom, left to right, front to back. Conductors 3AWG and larger, minimum insulation rating of 75C. Insulation types THWN, THHN or XHHW. Minimum insulation rating of 90C for branch I circuits. Color code conductors as follows: PHASE 208 VOLT WYE I A Black B Red I C Blue Neutral White Ground Green I Isolated Green with Ground yellow trace 2.3 BOXES I A. General: I 1. Luminaire Outlet: 4 -inch octagonal box, 1-1/2-inches deep with 3/8 -inch I luminaire stud if required. Provide raised covers on bracket outlets and on ceiling outlets. I Knowledge Beginnings - Tigard 98316.04 I BASIC MATERIALS AND METHODS 16050 -2 I 2. Device Outlet: Installation of one or two devices at common location, minimum 4 -inch square, minimum 1 -1/2- inches deep. Single or 2 -gang ' flush device raised covers. Raco Series 681 and 686 or Bowers. 3. Signal and Communication Systems Outlet: 4 -inch square box, ' 2 -1/8- inches deep. Single- or 2 -gang raised device cover. Raco Series, or approved. 4. Multiple Devices: Three or more devices at common location. Install 1 -piece gang boxes with 1 -piece device cover. Install one device per gang. Raco, Bowers, or approved. 5. Masonry Boxes: Outlets in concrete, Raco Series 690, Bowers, or approved. 6. Construction: Provide galvanized steel interior outlet wiring boxes, of the ' type, shape and size, including depth of box, to suit each respective location and installation; constructed with stamped knockouts in back and sides, and with threaded holes with screws for securing box covers or wiring devices. 7. Accessories: Provide outlet box accessories as required for each • 1 installation, including mounting brackets, wallboard hangers, extension rings, luminaire studs, cable clamps and metal straps for supporting outlet boxes, compatible with outlet boxes being used and meeting requirements I of individual wiring situations. I B. Weatherproof Outlet Boxes: Provide corrosion- resistant cast metal weatherproof outlet wiring boxes, of the type, shape and size, including depth of box, with threaded conduit ends, cast metal face plate with spring- hinged waterproof cap suitably configured for each application, including face plate gasket, blank plugs and corrosionproof fasteners. Weatherproof boxes to be constructed to have smooth sides, gray finish. Bell, Carlon, Red Dot, or approved. ' C. Junction and Pull Boxes: Provide galvanized sheet steel junction and pull boxes, with screw -on covers; of the type shape and size, to suit each respective location ' and installation; with welded seams and equipped with steel nuts, bolts, screws and washers. Circle AW, Hoffman, or approved. ' D. Box Extension Adapter: Diecast aluminum construction. Install over flush wall outlet boxes to permit flexible raceway extension to equipment. Bell 940 Series, ' Red Dot IHE4 Series, Carlon, or approved. E. Conduit Fittings: Provide corrosion- resistant punched -steel box knockout ' closures, conduit locknuts and plastic conduit bushings of the type and size to suit each respective use and installation. O -Z Gedney, Thomas & Betts, or approved. Knowledge Beginnings - Tigard 98316.04 BASIC MATERIALS AND METHODS 16050 -3 1 2.4 WIRING DEVICES I A. Wall Switches: Characteristics: Toggle e quiet actin 20 am 120/277 volt, UL I 1. gg type, q g, P, , listed for motor loads up to 80 percent of rated amperage. Arrow -Hart 1221, Leviton 1221, Pass & Seymour 20ACI, Bryant 4901, Hubbell 1221. 2. Finish: Ivory finish unless selected otherwise by Architect. Provide I Architect with optional colors for selection prior to ordering. B. Receptacles: I 1. Finish: Same exposed finish as switches. Receptacles connected to emergency circuits, red finish, Hubbell SG63 -HR. I 2. Characteristics: Straight parallel blade 20 amp, 125 volt, 2 -pole - 3 wire grounding. Arrow -Hart 5352, Leviton 5352, Pass & Seymour 5352, I Bryant 5352, Hubbell 5352. 3. Isolated Ground Receptacle: Orange urea finish with isolated ground. I Hubbell IG -5362, Arrow -Hart IG -5362, Leviton, Pass & Seymour, Bryant. 4. Ground Fault Interrupter: Feed through type, 20 amp, 125VAC, 1 specification grade. Hubbell GF- 5362GY, Arrow -Hart GF -5342. 5. Wet Locations: Weatherproof receptacles installed in wet locations, I approved for location and use, Course -Hinds WLR Series. Equip utilization equipment connected to wet location receptacles with barrel I type plug similar to Hubbell 5266 -C. Provide continuous use cover with cover capable of closing over energized cord cap with bottom aperture for cord exit. I C. Finish Plates: Commercial grade thermoplastic, finish to match device finish. I Provide Mericon Safe -plate Model 0790. 2.5 SAFETY DISCONNECTS t A. Toggle Type Disconnect Switches: 120 volt, 1 -pole, 20 amp, 1 HP maximum. NEMA 1 enclosure for indoors, NEMA 3R enclosure for outdoors. I I Knowledge Beginnings - Tigard 98316.04 I BASIC MATERIALS AND METHODS 16050 -4 1 B. Safety Switches: Heavy duty, fused type, dual rated, quick -make, quick -break with fuse rejection feature for use with Class R fuses only, unless other fuse type ' is specifically noted. Provide NEMA 1 enclosure for indoors, NEMA 3R enclosure for outdoors. Switches clearly marked for maximum voltage, current and horsepower. Equip enclosure with defeatable cover interlock. Switches rated ' for maximum available fault current. Manufacturers: Cutler - Hammer/ Westinghouse, Square -D, or Siemens. PART 3 - EXECUTION 3.1 ELECTRICAL CHARACTERISTICS A. Verify electrical characteristics of equipment prior to installation of conduits and wiring for equipment. Coordinate HVAC voltage requirements with Drawings ' and equipment submittals prior to rough in. 3.2 MOTOR BRANCH CIRCUIT WIRING ' A. Do not install electrical equipment or wiring on mechanical equipment without approval of Architect. B. Provide moisture tight equipment wiring and switches in ducts or plenums used for environmental air. C. Connect motor branch circuits complete from panel to motor as required by code and manner herein described. D. Motor starter and control devices and wiring provided by other Divisions unless ' noted on Drawings. 3.3 INSTALLATION ' A. Conduit: ' 1. Conduit Joints: Assemble conduits continuous and secure to boxes, panels, luminaires and equipment with fittings to maintain continuity. ' Provide watertight joints where embedded in concrete, below grade or in damp locations. Seal PVC conduit joints with solvent cement and metal conduit with metal thread primer. All rigid conduit connections to be threaded, clean and tight (metal to metal). 2. Conduit Placement: Knowledge Beginnings - Tigard 98316.04 BASIC MATERIALS AND METHODS 16050 -5 a. Install continuous conduit and raceways for electrical power ' wiring. b. Conceal all conduits. Exposed conduits are permitted only in the following areas: 1) Mechanical rooms, electrical rooms or spaces where walls, ceilings and floors will not be covered with finished materials. ' 2) Existing walls that are concrete or block construction. 3) Where specifically noted on the Drawings. 3. Conduit Use Locations: a. Underground: PVC. 1 b. Cast -in -Place Concrete, Masonry, Damp Locations and Subject to Mechanical Damage: GRC. c. Dry, Protected: GRC, IMC, EMT. ' d. Sharp Bends and Elbows: GRC, EMT use factory elbows. Install pull wire or nylon cord in empty raceways e. p Y P Y provided for Y p other systems. Secure wire or cord at each end. f Elbow for Low Energy Signal Systems: Use long radius factory ells where linking sections of raceway for installation of signal cable. g. Motors, recessed luminaires and equipment connections subject to movement or vibration, use flexible metallic conduit. h. Motors and equipment connections subject to movement or vibration and subjected to any of the following conditions; exterior location, moist or humid atmosphere, water spray, oil or grease use PVC coated liquid tight flexible metallic conduit. ' B. Wires and Cables: 1. Conductor Size and Quantity: Install no conductors smaller than 12AWG unless otherwise shown. Provide all required conductors for a fully operable system. C. Boxes: ' Knowledge Beginnings - Tigard 98316.04 BASIC MATERIALS AND METHODS 16050 -6 1. Location: Locate boxes and conduit bodies so as to ensure accessibility of electrical wiring. ' 2. Outlet System: Provide electrical boxes and fittings as required for a complete installation. Include but not be limited to outlet boxes, junction ' boxes, pull boxes, bushings, locknuts, and all other necessary components. 3. Code Compliance: Comply with NEC as applicable to construction and installation of electrical boxes and fittings and size boxes according to NEC 370, except as noted otherwise. ' 4. Mount Center of Outlet Boxes as Required by ADA, or Noted on Drawings, the Following Distance above the Floor: a. Control Switches: 48- inches. b. Receptacles: 54- inches unless otherwise noted. c. Telecom Outlets: 18- inches. d. Other Outlets: As indicated in other Sections of Specifications or as detailed on Drawings. ' D. Provide all NEC - required disconnect switches whether specifically shown on Drawings or not. Provide disconnect switch at each motor location within 5 -feet ' unless otherwise noted. Coordinate fuse ampere rating with installed equipment. Fuse ampere rating variance between original design information and installed equipment, size in accordance with Bussmann Fusetron 40C recommendations. ' Do not provide fuses of lower ampere rating than motor starter thermal units. E. Supporting Devices: 1. Verify mounting height of all luminaires or items prior to installation 1 when heights are not detailed. 2. Do not use other crafts' fastening devices as supporting means for electrical equipment materials or luminaires. Do not use supports or fastening devices to support other than one particular item. 1 3. Provide seismic bracing per UBC requirements for this building location. ' F. Electrical Identification: 1. Install an engraved label on each major unit of electrical equipment, including but not limited to the following items: Disconnect switches, relays, contactors, time switches, override switches, service disconnects, distribution switches, branch circuit panelboards, and central or master unit of each electrical system including communication/signal systems. Knowledge Beginnings - Tigard 98316.04 BASIC MATERIALS AND METHODS 16050 -7 • 2. Install engraved distribution panelboard labels on the inside of flush 1 panels, visible when door is opened. Install label on outside of surface panel. ' END OF SECTION ' 1 1 Knowledge Beginnings - Tigard 98316.04 , BASIC MATERIALS AND METHODS 16050 -8 ' SECTION 16400 - SERVICE AND DISTRIBUTION I PART 1 - GENERAL 1.1 SUMMARY I A. Section Includes: 1 1. Metering equipment. 2. Grounding. I 3. 4. Switchboards and panelboards. Fuses and circuit breakers. 5. Contactors. P 6. Time switches and photoelectric switch. B. Fees: I 1. Pay all fees levied by serving electric utility to provide service to this project. I 2. Obtain fees from serving electric utility prior to submitting a bid. SYSTEM DESCRIPTION I 1.2 A. Electrical Service System: 208/120 volts, 3- phase, wye, 4 wire. I B. Grounding: I 1. Provide grounding and bonding of electrical service, circuits, equipment, signal and communication systems. l 2. Building Ground Electrode: Coordinate placement of ground rods and grounding electrode conductor in base of building footing prior to placement I 3. Performance Requirements: Supplement the grounded neutral of the secondary distribution system with an equipment grounding system to I properly safeguard the equipment and personnel. Install equipment grounding such that all metallic structures, enclosures, raceways, junction boxes, outlet boxes, cabinets, machine frames, portable equipment and I other conductive items in close proximity with electrical circuits operate continuously at ground potential and provide a low impedance path for III possible ground fault currents. I I Knowledge Beginnings - Tigard 98316.04 SERVICE AND DISTRIBUTION 16400 -1 1.3 SUBMITTALS 1 A. Provide Shop Drawings and Product Data for the Following Equipment: 1 1. Switchboards and Distribution panelboards. B. Provide the following operating and maintenance instructions from the manufacturer for project closeout, see Project Closeout Requirements in Division 1: 1. Switchboards and Distribution p anelboards. PART 2 - PRODUCTS 2.1 GROUNDING MATERIALS 1 A. Ground Rods: Copperclad steel, 3/4 -inch diameter, 20 -feet long, tapered point, chamfered top. Manufacturers: Weaver, Thomas & Betts or approved. B. Grounding Connectors: Hydraulic compression tool applied connectors or exothermic welding process connectors or powder actuated compression tool applied connectors. Mechanical type of connectors are not acceptable. Manufacturers: Burndy Hyground Compression System, Erico /Cadweld, Amp Ampact Grounding System or approved. C. Pipe Grounding Clamp: Mechanical ground connector with cable parallel or 1 perpendicular to pipe. Manufacturers: Burndy GAR Series, O -Z Gedney, Thomas & Betts or approved. D. Insulated Grounding Bushing: Malleable iron or steel, lay -in -lug, integrally molded noncombustible insulated surfaces rated at 150C. Manufacturers: O -Z Gedney Series BLG Series, Burndy, Thomas & Betts or approved. E. Telecommunications Grounding Bar: 1/4 -inch thick by 4 -inch high by 20 -inch long copper ground bar with insulators. Manufacturers: Erico /Cadweld or approved. F. Grounding Electrode Conductor: Bare copper stranded conductor. 2.2 METERING EQUIPMENT 1 A. Meter Base: Surface mounted meter socket enclosure. Provide meter base(s) for energy /demand and reactive energy /demand bases as required by serving electric utility. • Knowledge Beginnings - Tigard 98316.04 SERVICE AND DISTRIBUTION 16400 -2 B. C.T. Enclosure: Provide enclosure that meets the serving utility company's requirements. Construct as an integral part of the main distribution switchboard. ' C. Terminal Cabinet: Provide terminal cabinet that meets the serving utility company's requirements. Construct as an integral part of the main distribution switchboard. D. Provide the fault withstand rating greater than the utility available fault current. 2.3 SWITCHBOARD AND DISTRIBUTION PANELBOARD CONSTRUCTION ' A. Manufacturers: Siemens, Square -D, Cutler - Hammer /Westinghouse, General Electric, or approved. B. Standards: Comply with requirements of UL 891, NEMA PB2 and NEC 384 in construction of switchboards. Provide short circuit current rating (Integrated ' Equipment Rating, IER) for panelboards. Furnish panelboards with UL label. C. Switchboard: ' 1. Enclosure: Free standing, dead front with front accessibility required. Framework constructed of formed, code gauge steel, rigidly welded and bolted together to support all cover plates, bussing and component devices during shipment and installation bolt steel base channels to the frame to rigidly support the entire shipping section for moving on rollers and floor �r mounting. Provide each section with individually removable top plate and open bottom to permit installation and termination of service and feeder raceways. 2. Bussing: Extruded aluminum plated by ALTAN 70 or 80 process. Bus ' supports, connections and joints bolted together with hex -head bolts and Belleville washers. Full length of panelboard ground bus, 50 percent of phase bus capacity. ' 3. Provide series rated integrated equipment rating greater than the available fault current. Series rated switchboards are not acceptable. See Drawings ' for available fault current, if Drawings do not have the available fault currents then coordinate with serving electric utility. ' 4. Lugs: Mechanical -type rated for both aluminum and copper conductors. 5. Provide switches which pass industry standard I withstandability tests and fuse tests suitable for use as service equipment. D. Distribution Panelboards: Knowledge Beginnings - Tigard 98316.04 SERVICE AND DISTRIBUTION 16400 -3 1. Enclosure: Flush panelboards rated 600 amp or less provide maximum • i enclosure depth of 5 -3/4- inches. Provide galvanized metal finish. Galvannealed metal is not acceptable. 2. Bussing: Aluminum bar with suitable electroplating (tin) for corrosion control at connection. Provide ground bar to accommodate specified terminal lugs. Predrill bus for bolt -on type circuit breakers. 3. Provide fully rated integrated equipment rating greater than the available I fault current. See Drawings for available fault current, if Drawings do not have the available fault currents then coordinate with serving electric utility. Minimum rating is 10,000 amps. 4. Lugs: Mechanical type rated for both aluminum and copper conductors. 5. Breakers: Bolt -on type. 6. Cover: Front cover with hinged door, flush lift latch and lock. Provide ' two keys per panel. Key all branch circuit panelboards alike. Paint all surfaces with medium light grey finish suitable for field painting to match wall finish. Surface panels to have metal trim covers with no sharp edges or corners. 2.4 FUSES , A. Dual element, time delay, current limiting, nonrenewable type, rejection feature. , UL Class RK5, 1 /10 to 600 amp, UL Class L, above 600 amps. Provide fuse pullers for complete range of fuses. Manufacturers: Bussmann, Gould - Shawmut, Littelfuse, or approved. 2.5 MOLDED CASE CIRCUIT BREAKERS A. One, two or three -pole bolt on, single handle common trip, rated 15 to 800 amp, 250VAC as indicated on Drawings. Overcenter toggle -type mechanism, quick- make, quick -break action. Trip indication is by handle position. Calibrate for operation in 40C ambient temperature. Provide all circuit breakers series rated and when series combination ratings are applied, identify all equipment enclosures as required by NEC 110 -22. 2.6 LIGHTING CONTACTORS , A. Manufacturers: Asco, Square -D, Cutler - Hammer /Westinghouse, General Electric, Siemens, or approved. 1. Continuously rated 20 amp per pole for all types of ballast and tungsten lighting and resistance loads, do not derate for use on high - inrush loads. Knowledge Beginnings - Tigard 98316.04 SERVICE AND DISTRIBUTION 16400 -4 1 2. Contacts: Double break, silver- cadmium - oxide. Auxiliary arcing contacts ' not acceptable. Convertible Contacts, N.O. or N.C. Contact status, N.O. or N.C., clearly visible. 3. Approved per UL 508. Design in accordance with NEMA ICS2 -211B, rated for application to 600 volt maximum. 4. Electrically Held Contactor Coil: Continuously rated and encapsulated. ' 5. Mechanically Held Contactor: Encapsulated latch and unlatch coils, coil clearing contacts. B. Contactor Enclosures: Provide NEMA enclosure suitable for location and use, flush or surface mount as indicated on Drawings. 2.7 ELECTRONIC TIME SWITCHES A. Double pole, single throw; one N.O. contact, one N.C. contact. 24 -hour digital. Battery power source to provide minimum of 3 years of memory back -up. Eight event setpoints. Provide enclosure with separate hinged door, recessed or surface as indicated on Drawings. B. Manufacturers: Intermatic Paragon, Tork, Sangamo, or approved. g g pp ,' 2.8 PHOTOELECTRIC SWITCHES I A. Hermetically sealed light sensitive element installed in diecast weatherproof enclosure. Adjustable external light level slide. Swivel adjustable enclosure. 20VAC, 1800VA, connected for pilot duty unless otherwise indicated. B. Manufacturers: Paragon, Tork, Precision, or approved. PART 3 - EXECUTION 3.1 INSTALLATION ' A. Verify utility requirements prior to bidding and provide all associated work required by local utility including but not limited to: Service underground primary including conduit, pull cord, excavation and backfill. Underground pull ' vaults. Pole risers. Transformer pads, vaults, and the like. Secondary service lateral including conduit, and conductors. Grounding of transformers. Service metering equipment. B. Concrete Encased Ground Electrode: Knowledge Beginnings - Tigard 98316.04 SERVICE AND DISTRIBUTION 16400 -5 1 1. From the service equipment ground bus install grounding electrode conductor to footing foundation rebar. C. Ground Rod Electrode: 1. Coordinate g lacement of ground rods and interconnecting conductor in p base of building footing prior to placement of concrete. D. Water Service Grounding: Bond building ground electrode and water service pipe to service ground bus. Connect to water pipe on utility side of isolating fittings or meters. E. Raceway Grounding: 1. Ground all metallic raceway systems. Bond to ground terminal with code size jumper except where code size or larger grounding conductor is included with circuit, use grounding bushing with lay -in lug. F. Feeders and Branch Circuits Grounding: 1. Install continuous insulated equipment copper ground conductors within the following circuits; feeders, circuits for computer systems and other circuits as indicated on Drawings. 2. Where installed in a continuous solid metallic raceway system and larger ' sizes are not detailed, provide insulated equipment ground conductors for feeders and branch circuits sized in accordance with Table 250 -95. G. Motors, Equipment and Appliance Grounding: Install code size equipment grounding conductor from outlet box to (motor) equipment frame or manufacturer's designated ground terminal. H. Receptacle Grounding: Connect ground terminal of receptacle to equipment ground system by No. 14 conductor bolted to outlet box. Self grounding nature of receptacle devices does not eliminate conductor bolted to outlet box. I. Telecommunications Backboard: Provide telecommunications roundin bar at g g each telecommunications backboard. Bond the grounding bar to service grounding bar in the main service equipment with a 6AWG copper equipment grounding conductor. J. Boxes, Cabinets, Enclosures and Panelboards: ' 1. Bond grounding conductors to enclosure with specified conductors and lugs. Install lugs only on thoroughly cleaned contact surfaces. Knowledge Beginnings - Tigard 98316.04 SERVICE AND DISTRIBUTION 16400 -6 1 2. Bond all sections of service equipment enclosure to service ground bus. ' K. Motors, Equipment and Appliances: Install code size equipment grounding conductor from outlet box to (motor) equipment frame or manufacturer's ' designated ground terminal. ' L. Receptacles: Connect ground terminal of receptacle to equipment ground system by No. 14 conductor bolted to outlet box except isolated grounds where noted. Self grounding nature of receptacle devices does not eliminate conductor bolted to ' outlet box. M. Switchboard Distribution Panelboards: 1. Install equipment complete as directed by manufacturer's installation instructions. ' N. Control Devices: ' 1. Install time switches and other automatic control devices in accessible locations near the source of power or grouped at a common location in mechanical rooms or similar spaces. 2. Install photoelectric control devices at such locations as necessary to be most effective. Avoid locating photoelectric devices in or at locations �.. where they can be influenced by other than natural light or under eaves. Verify location of equipment with Architect. END OF SECTION 1 1 Knowledge Beginnings - Tigard 98316.04 SERVICE AND DISTRIBUTION 16400 -7 (Blank Page) � " 4 - MASONRY SECTION 04200 - UNIT MASONRY PART 1 - GENERAL 1. General: All exposed and concealed masonry shall be installed in accordance with applicable sections of the Brick Institute of America and Structural Clay Products Institute "Technical Notes ", latest editions. • 2. Craftsmanship: All masonry shall be made waterproof by quality craftsmanship and installation of the specified materials. 3. Shipping: All masonry units shall be packaged, shipped and transported in a manner to minimize chipping and damage to the units. All units damaged in transit shall not be incorporated into the finally exposed walls. 4. Coordination: The design calls for close tolerances at all window and door openings and at certain design features. Consult the drawings and coordinate the masonry construction with masons and other trades. 5. Protection: The tops of all walls and all completed walls shall be covered at night and at all times of precipitation to prevent water snow or ice from entering the wall cavity or from damaging the exterior surface. All protections shall be held firmly in place against wind displacement. 6. Cold Weather Precautions: Do not lay masonry in less than 40 degree F. or expected lower temperatures unless suitable means are provided to heat the materials and to protect the uncured mortar from frost damage. No antifreeze compounds or calcium chloride -may be added to the mortar at any time. Remove snow and ice from all previously laid masonry by elevating the temperature of the air around it, do not heat the masonry directly. Consult Architect and/or Construction Manager for protection/heating requirements if brick is to be laid in colder than 40 degree F. weather. If ice crystals form on the surface of the mortar during the tooling and compressing stage, rake the mortar out to a depth of 1/2" and cover wall. When air temperatures recover above 40 degrees F. and will not fall below 32 degrees F. again within 12 hours, tuck point the raked joint with fresh mortar, tool and compress. 7. Hot Weather Protection: All brick units shall be dampened to prevent pre- hydration of the contact surfaces between the brick and mortar in conformance with the Structural Clay Products Institute recommendations. If the job site air temperature is above 80 degrees F. during the work day, mortar shall be placed in final position within one hour after mixing. 8. Also see notes on structural drawings. PART 2 - PRODUCTS 1. Brick: ASTM C -216, Grade SW, Type FBS, standard modular face brick size. See Exterior Color Schedule for brick manufacturer and color. If a similar brick can be obtained locally at a lower cost, submit samples to the Architect prior to ordering for approval. 2. Mortar: Type M for masonry in contact with the earth and for filling concrete block, Type S for exposed masonry walls. one (1) part Portland cement, one - quarter (1/4) part hydrated lime, and not less than 2 -1/4 or more than three times the sum of the volumes of the cements and lime used for sand. Mortar color per Exterior Color Schedule. Compressive strength of the mortar at 28 days shall be: a. Type M - 2500 psi b. Type S - 2000 psi Knowledge Beginnings Daycare Facility - Scholls /130th, Tigard 98316.04 1' DIVISION 4 - MASONRY Page 1 PART 3 - EXECUTION 1. Preparation: Layout and course all brick to conform with the drawings and the various elements to be incorporated. Establish locations of all anchors, ties, reinforcing, lintels, etc. and coordinate with other trades. No exposed cut ends will be allowed. No cores shall be exposed, use a solid brick with facing. 2. Wetting: Wet brick so the absorption rate does not exceed ASTM C -67 standards. When the air temperature is very hot and dry, or moderately hot and windy, wet the brick several times to insure all the bricks have been wetted. This shall be done several hours ahead of usage so the brick has no surface water, but the absorption rate has been reduced to prevent sucking the water out of the mortar mixture. 3. Face units in vertical walls shall be laid in a standard running bond, except as specifically noted on the drawings. Window sills shall be laid rowlock, or as called for on the drawings. 4. Joints: Shall be nominal 3/8" wide vertically and horizontally. Joints on all exposed masonry shall be standard tooled and compressed concave. When mortar is thumbprint hard, use a round jointer /tooler to produce joint. Mortar shall be hard and firmly compressed. 5. Joining: Where fresh masonry joins partially set masonry, remove loose bricks and mortar, clean and lightly wet contact surfaces. Stop horizontal runs by racking back one half (1/2) unit in each course. Toothing shall not be permitted. 6. Thru -Wall Base Flashing: Install thru -wall flashing behind the sheathing as shown on the drawings and extend up 8" between the back face of the stud and the back face of the sheathing. Extend flashing atop bottom ledge and trim flush to conceal. 7. Weepholes: Weepholes rope wicks, trimmed flush at 24" o.c. Rope wicks shall be untreated cotton or fiberglass rope with a diameter of not less than 3/16" nor greater than 1/4" diameter. Wicks shall extend 8" vertically in the cavity. Hold in place with duct tape. Keep cavity between sheathing and brick free of mortar droppings. 8. Installation: Install brick plumb and true to lines in all directions. Discard all bricks that are not ' within tolerance as to size or shape, are chipped, or off color. Install brick with finished face out. Do not pound or hammer to fit units after they are in position. When adjustment must be made after mortar has begun to set, remove mortar and replace it with fresh. Remove mortar dropping on the face of all exposed bricks as they occur. Do not allow mortar to harden on the finally exposed portions of the work. 9. Reinforcing: Ties shall be equal to National Wire #700 Corrugated Lateral Support Anchors, 12 gauge, 1.25" wide, with pre - formed attachment holes, hot dipped galvanized steel, length as required to provide proper attachment to the wall, and a 5/8" weather coverage. Spacing shall be 16" max. o.c. horizontally, and 16" o.c. vertically commencing 8" above the start of the first course. 10. Cleaning: Brick shall be cleaned upon completion of all brick work. Masonry cement shall be cleaned from windows, doors, concrete and other materials. Point up exposed masonry voids, cracks, and surface imperfections. Use water and a stiff wire brush to clean off excess mortar. Do no strike off surface mortar with metallic objects as this may spall off the finished face of the brick causing it to be replaced. Masonry cleaning products to be applied according to manufacturer's directions. Any solution used shall be acid and efflorescent free, similar to Sure -Klean as manufactured by ProSoCo, Inc. Wash off all traces of cleaning agent when complete and flood surface to remove all contaminates. END OF DIVISION Knowledge Beginnings Daycare Facility - Scholls /130th, Tigard 98316.04 DIVISION 4 - MASONRY Page 2 I 1 Backfill for the pipe base and within the pipe zone should be placed in maximum 12 -inch- thick lifts and compacted to not less than 90 percent of the maximum dry density, as determined by ASTM D 1557 or as recommended by the pipe manufacturer. Backfill above the pipe zone should be placed in maximum 12- inch -thick lifts and compacted to not less ' than 92 percent of the maximum dry density, as determined by ASTM D 1557. Trench backfill located within 2 feet of finish subgrade elevation should be placed in maximum 12 -inch -thick lifts and compacted to not less than 95 percent of the maximum dry density, ' as determined by ASTM D 1557. RETAINING STRUCTURES For walls not restrained from rotation, we recommend using an equivalent fluid pressure of 33 pcf for design. We recommend using an equivalent fluid pressure of 55 pcf for design of walls restrained from rotation. When computing resistance to lateral loads, we recommend ' using a base friction coefficient of 0.30. Footings for the retaining walls should be designed for a maximum bearing pressure of 2,500 psf, in accordance with the recommendations given for shallow spread footings. Wall drains should include perforated drainpipe wrapped in a non -woven geotextile filter installed behind the walls at the base. Walls should be backfilled with imported granular material, as described in the "Structural Fill" section of this report. The above design recommendations are based on the assumptions that: (1) the walls consist of conventional cantilevered retaining walls or embedded building walls, (2) the :�. walls are less than 10 feet in height, (3) the backfill is level and drained and consists of . ` imported granular materials, and (4) no surcharges are imposed behind the wall. ., Reevaluation of our recommendations will be required if the retaining wall design criteria for the project vary from these assumptions. ' PERMANENT SLOPES Permanent slopes should not exceed 2H:1V (horizontal to vertical). Adjacent on -site and ' off -site structure and surfacing should be located at least 5 feet from the top of slopes. Footings constructed within slopes should have a minimum of 5 feet between the face of the slope and the outer edge of the footing. Groundwater conditions may create seepage from cut slopes at the site. Provisions should be made to direct seepage away from the face and toe of slopes where it occurs. ' DRAINAGE CONSIDERATIONS We recommend that subsurface drains be connected to a tightline leading to the storm ' drain. Pavement surfaces and open space areas should be sloped such that the surface water runoff is collected and routed to suitable discharge points. We recommend that the ground and paved surfaces adjacent to the building be sloped to drain away from the ' building. We also recommend using perimeter foundation drains in areas that will be cut below existing grades. I GeoDesign, Inc. 7 Hulsey -3: 061499 1• maximum article size of 3 inches, and has less than 5 percent passing the U.S. Standard p o p p 9 No. 200 Sieve. The percentage of fines can be increased to 12 percent of the material passing the U.S. Standard No. 200 Sieve if placed during dry weather. Imported granular material should be moisture conditioned to the approximate optimum moisture content for ' compaction, placed in 12- inch -thick lifts, and compacted to not less than 95 percent of maximum dry density as determined by ASTM D 1557. CEMENT AMENDMENT As an alternative to the use of imported granular material for structural fill, working blankets and haul roads, an experienced contractor may be able to amend the on -site soils with portland cement to obtain suitable support for fill operations and /or support of construction equipment. Based on the moisture contents, soil type, and processing speed, cement amendment would be more suitable at this site than lime amendment. ' Successful use of soil amendment depends on use of correct techniques and equipment, soil moisture content, and the amount of portland cement added to the soil. ' Recommended cement percentages are based on soil moisture contents at the time of placing the structural fill. Based on our tests and experience, about 4 percent by dry weight of soil can generally be used when the soil moisture content does not exceed ' approximately 25 percent. If the soil moisture content is in the range of 25 to 35 percent, we recommend 5 to 6 percent cement by weight of dry soil. It is difficult to accurately predict field performance due to the variability in soil response to portland cement amendment. The percentage of cement may need to be adjusted based on field observations and performance. For preliminary design purposes, we recommend a minimum of 5 percent cement and a treatment depth of 12 inches. At this site, 5 percent ' cement would correspond to about 4.5 pounds of cement per square foot, for a 12 -inch treatment depth. ' SHALLOW FOUNDATIONS We recommend that spread footings have a minimum width of 24 inches, with the base of the footings founded at least 18 inches below the lowest adjacent grade. Continuous wall ' footings should have a minimum width of 18 inches, and be founded a minimum of 18 inches below the lowest adjacent grade. ' Bearing Pressure and Settlement Footings with the preceding loads and founded as recommended should be proportioned ' for a maximum allowable soil bearing pressure of 2,500 psf. This bearing pressure is a net bearing pressure and applies to the total of dead and long -term live loads and may be increased by one -third when considering earthquake or wind loads. The weight of the footing and overlying backfill can be ignored in calculating footing loads. For a 2,500 psf design bearing pressure, total settlement of footings is anticipated to be ' less than about 1 -inch for the building loads discussed above. Differential settlements should not exceed '/2 -inch. GeoDesign, Inc. 4 Hulsey -3: 061499 • SITE PREPARATION AND EROSION CONTROL The existing topsoil should be stripped and removed from the site in all proposed building and pavement areas and for a 5 -foot margin around such areas. Based on our explorations, the depth of stripping will be approximately 6 inches, although greater stripping depths may be required to remove localized zones of loose or organic soil. The ' actual stripping depth should be based on field observations at the time of construction. Stripped material should be transported off -site for disposal or used in landscaped areas. After stripping and required site cutting have been completed, we recommend proofrolling the subgrade with a fully - loaded dump truck or similar -size, rubber -tire construction equipment to identify areas of excessive yielding. A member of our geotechnical staff, who will evaluate the subgrade, should observe the proofrolling. If areas of excessive yielding are identified, the material should be excavated and replaced with structural fill. Areas that ' appear to be too wet and soft to support proofrolling equipment should be prepared in accordance with the recommendations for wet weather construction. ' Silt fences, hay bales, buffer zones of natural growth, sedimentation ponds, and granular haul roads should be used as required to reduce sediment transport during construction to acceptable levels. Measures to reduce erosion should be implemented in accordance with ' Oregon Administrative Rules 340 -41 -006 and 340 -41 -455 and Washington County and City of Hillsboro regulations regarding erosion control. ' STRUCTURAL FILL On -site Materials The site silts are sensitive to small changes in moisture content and highly susceptible to ' disturbance when wet. If construction is planned for the wet season then careful consideration of the construction methods and schedule should be made to reduce overexcavation of disturbed site soils, and the project budget should reflect the ' recommendations for wet weather construction contained in this report. Laboratory testing indicates that the moisture content of the on -site materials is greater ' than the anticipated optimum moisture content required for satisfactory compaction. Therefore, moisture - conditioning will be required to achieve adequate compaction. We recommend using imported granular material for structural fill if the on -site material cannot be properly moisture - conditioned. As an alternative, use of the on -site silt for structural fill may be acceptable if it is properly amended with portland cement or lime. ' When used as structural fill, the on -site silty material should be placed in lifts with a maximum uncompacted thickness of no less than 8 inches. The silt should be compacted to not less than 92 percent of the maximum dry density, as determined by American Society for Testing and Materials (ASTM) D 1557. ' Imported Granular Material If imported granular material is used as structural fill, this material should consist of pit or quarry run rock, crushed rock, or crushed gravel and sand that is fairly well - graded ' between coarse and fine, contains no organic matter or other deleterious materials, has a GeoDesign, Inc. 3 Hulsey -3: 061499